Claims
- 1. A computer system, comprising:
- processor means receiving clock signals; and
- a voltage-controlled oscillator for generating said clock signals, said voltage-controlled oscillator receiving a variable supply voltage and providing an output signal having a frequency varying within a predetermined range in accordance with variation in said variable supply voltage, said frequency varying a greater percentage than the corresponding percentage variation in said supply voltage.
- 2. A computer system as in claim 1, wherein said voltage-controlled oscillator provides non-linear voltage-frequency characteristics.
- 3. A computer system as in claim 2, wherein said non-linear characteristics are provided by one or more diodes in said voltage-controlled oscillator.
- 4. A computer system as in claim 1, further comprises a power source providing said variable supply voltage for operating said computer system.
- 5. A computer system as in claim 1, wherein said computer system further comprises means for disabling generation of said clock signals to conserve power.
- 6. A computer system as in claim 1, wherein said computer system further comprises a switching power supply regulator.
- 7. A computer system as in claim 1, wherein said computer system further comprises an on-off switching power supply regulator.
- 8. A computer system, comprising:
- processor means receiving clock signals; and
- a voltage-controlled oscillator for generating said clock signals, said voltage-controlled oscillator receiving a variable supply voltage and providing an output signal having a frequency varying within a predetermined range in accordance with variation in said supply voltage; wherein said voltage controlled oscillator comprises:
- inverting logic gate having an input terminal and an output terminal and receiving said supply voltage and a ground voltage, said output terminal of said inverting logic gate attaining a voltage substantially said supply voltage when said input terminal of said inverting logic gate is at substantially said ground voltage, and attaining a voltage substantially said ground voltage when said input terminal of said inverting logic gate is at substantially said supply voltage;
- a capacitor having first and second terminals, said first terminal of said capacitor coupled to said input terminal of said inverting logic gate, said second terminal of said capacitor coupled to said ground voltage;
- feedback means for charging said capacitor, said feedback means having an input terminal and an output terminal, said input terminal of said feedback means being coupled to said output terminal of said inverting logic gate, and said output terminal of feedback means being coupled to said input terminal of said inverting logic gate; and
- feedforward means for discharging said capacitor, said feedforward means having an input terminal and an output terminal, said input terminal of said feedforward means being coupled to said input terminal of said inverting logic gate, and said output terminal of feedback means being coupled to said output terminal of said inverting logic gate.
- 9. A computer system as in claim 8, wherein said inverting logic gate comprises a NAND gate having first and second input terminals, said first input terminal of said NAND gate coupled to said input terminal of said inverting logic gate and said second input terminal of said NAND gate being coupled to receive an enable signal.
- 10. A computer system, comprising:
- processor means receiving clock signals; and
- a voltage-controlled oscillator for generating said clock signals, said voltage-controlled oscillator receiving a variable supply voltage and providing an output signal having a frequency varying within a predetermined range in accordance with variation in said variable supply voltage;
- wherein said voltage-controlled oscillator has a percentage change in frequency exceeding a corresponding percentage change in said variable supply voltage by greater than 0.3.
- 11. A computer system, comprising:
- processor means receiving clock signals; and
- a voltage-controlled oscillator for generating said clock signals, said voltage-controlled oscillator receiving a variable supply voltage and providing an output signal having a frequency varying within a predetermined range in accordance with variation in said variable supply voltage;
- wherein said voltage-controlled oscillator has a percentage change in frequency exceeding a corresponding percentage change in said variable supply voltage by greater than 1.0.
Parent Case Info
This application is a division of application Ser. No. 07/374,514, filed Jun. 30, 1989.
US Referenced Citations (7)
Non-Patent Literature Citations (1)
Entry |
Plummer, I.; "Oscillators Using T.T.L. Schmitt Trigger Gates" New Electronics, vol. 13, No. 17; Sep. 2, 1980. |
Divisions (1)
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Number |
Date |
Country |
Parent |
374514 |
Jun 1989 |
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